Measurement-induced criticality in Z2-symmetric quantum automaton circuits
Abstract
We study entanglement dynamics in hybrid Z2-symmetric quantum automaton circuits subject to local composite measurements. We show that there exists an entanglement phase transition from a volume law phase to a critical phase by varying the measurement rate p. By analyzing the underlying classical bit string dynamics, we demonstrate that the critical point belongs to parity-conserving universality class. We further show that the critical phase with p>pc is related to the diffusion-annihilation process and is protected by the Z2-symmetric measurement. We give an interpretation of the entanglement entropy in terms of a two-species particle model and identify the coefficient in front of the critical logarithmic entanglement scaling as the local persistent coefficient. The critical behavior observed at p≥ pc and the associated dynamical exponents are also confirmed in the purification dynamics.
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